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Talk:PrOP-M

Latest comment: 2 years ago by RoySmith in topic GA Review
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Did you know nomination edit

Latest comment: 2 years ago13 comments3 people in discussion
The following is an archived discussion of the DYK nomination of the article below. Please do not modify this page. Subsequent comments should be made on the appropriate discussion page (such as this nomination's talk page, the article's talk page or Wikipedia talk:Did you know), unless there is consensus to re-open the discussion at this page. No further edits should be made to this page.

The result was: promoted by Theleekycauldron (talk) 01:30, 19 November 2021 (UTC)Reply

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PrOP-M on top of the Mars 3 lander

Created by Artem.G (talk). Self-nominated at 16:39, 2 November 2021 (UTC).Reply

  •   At the article's current state, it may need some work before it is ready for DYK. ALT0's hook fact doesn't seem to be mentioned directly in the article, only in the titles of the relevant references. The article is also in need of copyediting. Narutolovehinata5 (talk · contributions) 13:46, 5 November 2021 (UTC)Reply
    • @Narutolovehinata5: thanks for review! The fact is in the source, and 26 years is simply 1997-1971, should this simple math be stated in the source? Regarding copyediting: can you please point me to problematic sentences so I can rework the text? Artem.G (talk) 14:17, 5 November 2021 (UTC)Reply
    • And, actually, there is this [2] book that says "26 years earlier". I will add this to the article a bit later today when I'll get my laptop. Artem.G (talk) 14:23, 5 November 2021 (UTC)Reply
Well, for the hook to work, the relevant fact (that it was intended to be the first Mars rover) should explicitly be mentioned in the article. Simply being in the references is not sufficient. Narutolovehinata5 (talk · contributions) 14:53, 5 November 2021 (UTC)Reply
I've expanded the lead and added this fact into history section together with the ref. I would be grateful if you point me to the sentences in need of copyediting. Artem.G (talk) 16:15, 5 November 2021 (UTC)Reply
Essentially, the entire article needs to be copyedited for grammar and flow. You can request a copyedit at WP:GOCE if you want. Narutolovehinata5 (talk · contributions) 01:46, 7 November 2021 (UTC)Reply
@Narutolovehinata5: done, the article was copyedited by an experienced GOCE member. Artem.G (talk) 05:44, 10 November 2021 (UTC)Reply
Thank you. I will hopefully finish the full review by tomorrow. Narutolovehinata5 (talk · contributions) 14:07, 12 November 2021 (UTC)Reply
  •   Apologies for the delay in reviewing as real-life matters caught up with me. The article was new enough and long enough at the time of the nomination, and the hook facts are cited inline (assuming good faith for offline or Russian sources). I think ALT1 could be rewritten to focus on the fact that they were kept secret, rather than the rovers' mother spacecraft crashing. Since this is only the nominator's third nomination no QPQ is required at this time. Other than that my only other concern is that the first paragraph of the History section is unreferenced. Narutolovehinata5 (talk · contributions) 10:55, 16 November 2021 (UTC)Reply
  • @Narutolovehinata5: ref added. About the ALT: rovers were secret only because both missions failed, so I think this should be in the hook. Artem.G (talk) 11:03, 16 November 2021 (UTC)Reply
  Thank you for the edits, I think we're good to go now with ALT0. Narutolovehinata5 (talk · contributions) 12:04, 18 November 2021 (UTC)Reply

ALT0 to T:DYK/P4

GA Review edit

Latest comment: 2 years ago21 comments2 people in discussion
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Reviewing
This review is transcluded from Talk:PrOP-M/GA1. The edit link for this section can be used to add comments to the review.

Reviewer: RoySmith (talk · contribs) 13:43, 15 January 2022 (UTC)Reply


Hi, I'm going to review this article. It looks like a fascinating topic, and I have no problem with the article being short if there's really nothing else that's available. But, before I dive into the review, could you please take a look at the following sources which you seem to have missed and see if there's anything else you can find that's relevant:

[1] [2] [3] [4] [5] [6] [7] [8]

References

  1. ^ "Contemporary Planetary Robotics - Google Books". google.com. Retrieved 15 January 2022.
  2. ^ "Robot Memetics - Google Books". google.com. Retrieved 15 January 2022.
  3. ^ "Robotic Exploration of the Solar System - Google Books". google.com. Retrieved 15 January 2022.
  4. ^ "Planetary Rovers - Google Books". google.com. Retrieved 15 January 2022.
  5. ^ "Robotic Exploration of the Solar System - Google Books". google.com. Retrieved 15 January 2022.
  6. ^ "Soviet Robots in the Solar System - Google Books". google.com. Retrieved 15 January 2022.
  7. ^ "Planetary Landers and Entry Probes - Google Books". google.com. Retrieved 15 January 2022.
  8. ^ "Russian Space Probes - Google Books". google.com. Retrieved 15 January 2022.

I also found this in ProQuest:

This is the kind of topic where there should be lots of material in the scientific literature, for which you'll have to dig into the databases like ProQuest and JSTOR. Free subscriptions to both of those are available to all wikipedia editors. See WP:LIBRARY for details.

Also, look at ru:Прибор оценки проходимости — Марс. Even just using the machine translation, I found a few interesting facts such as the location in Ptolemy crater. I see there's articles on uk and bg as well, which are worth taking a look at for the same reason. The uk article says that the densitometer was sensitive to gamma rays and that it could move 1 meter/hour. The wiki articles aren't WP:RS, but should give you some suggestions for additional searching.

Hi RoySmith, thanks for taking this review!

About the sources: here are everything from all the books you found:

  • in Mars surface context cameras past, present, and future:

"The lander was a roughly spherical structure with four segmented “petals” which opened to self-right the lander and expose the instruments, plus a tethered rover; “Prop-M” [Perminov, 1999]. In addition to the two cycloramic cameras, the lander carried a mass spectrometer, atmospheric sensors (temperature, pressure, and wind), and other instruments to determine the mechanical properties of the Martian surface [Johnson, 1979; Perminov, 1999]."

  • in Robot Memetics:

"During the same time frame, in 1971, the Soviet Union sent two spacecraft landers

to planet Mars as missions called Mars 2 and Mars 3 (Fig. 1.5). Both of the Mars 2 and Mars 3 landers carried a small Mars rover (PrOP-M) on board (mass of 4 kg, ~20 cm in largest dimension), which was designed to move across the surface while connected to the lander via a 15-m power and communications tether. The mobility system, comprised of ski-like mechanisms, would enable locomotion in a sort of slow ski-walking manner (at up to 1 m/h). To enable measurement and evaluation of terrain properties near its lander, the rovers had both a densitometer and a dynamic penetrometer for testing the density and bearing strength of the soil. The intelligence embodied in the PrOP-M rovers was limited to tactile sensor-based autonomous obstacle detection (by contact) and avoidance. These rovers would have used these features to explore the area within 15 m of the lander, however, neither PrOP-M rover got the chance. The Mars 2 lander unfortunately crashed during descent to the Martian surface, and the Mars 3 lander suffered permanent loss of communications

within one minute of safely landing on Mars."

  • In Contemporary Robotics:

"The Prop-M rovers were small Soviet rover platforms launched with the twin mission Mars-2 and Mars-3, 9 days apart. Though the orbiter segments were successful, both the Mars-2 lander (with a planned landing on November 27, 1971) and

Mars-3 lander (that landed on December 2, 1971) were unsuccessful. The Mars-2 lander failed during entry, descent, and landing (EDL), and Mars-3 only provided 14.5 s of data after landing. The 4.5 kg platforms were about 215 × 160 × 60 mm (as illustrated in Figure 2.12) and tethered to the lander to provide power and data links. It would have allowed the rover to traverse about 15 m from the lander and gather science data every 1.5 m. The payload suite was comprised of a dynamic penetrometer and a radiation densitometer to measure soil density. The rover was deployed from the lander to the surface by means of an articulated deployment mechanism as illustrated in Figure 2.13-top. The Prop-M platform provided a new paradigm for surface mobility, implementing the first nonwheeled vehicle for planetary applications. Built with two rotating skis, the rover provided a forward motion by pivoting its skis through rotating lever arms connected to its body. It placed on the surface alternatively its skis and its body to provide a forward motion. Rotation was performed through skid steering by moving one ski forward and one ski backward [30]. A simple autonomous behavior of the rover was implemented to allow the platform to avoid obstacles during its traverse. If the tactile collision sensor in front of the vehicle detected an obstacle, it initiated a sequence where it moved one step backward, turned slightly, and moved forward

again as illustrated in Figure 2.13."

  • Ulivi in Robotic Exploration p 105:

"It was also announced that data from the landers was to assist in the development of the future 'Planetokhods', or planetary rovers?; This statement assumed a new meaning when the Russians revealed in the early 1990s that each dander carried an amazing experiment — a 4-kg mini-rover equipped to measure soil properties. This had been designed and built in just 18 months by the institute of mobile vehicle engineering VNII Transmash of Leningrad, which had already designed Lunokhods for use on the Moon. It was named PrOP-M (Pribori Otchenki Prokhodimosti-Mars, instrument for cross-country characteristics evaluation on Mars), 'Marso-khodik' or 'Micromarsokhod' (small Martian walker). After a 6-fold boom had placed it on the ground, the 21.5 x 16 x 6-cm box-shaped robot was to use skids in a parallelogram configuration to walk at a speed of 1 meter per minute out to a maximum of 15 meters from the lander, its range being limited by the umbilical that would supply power (it used just I W), commands and telemetry. On the front was a bumper with two levers that worked as an obstacle sensor. The rudimentary artificial intelligence of the robot was to enable it to identify the position of the obstacle, and then take several steps backward and attempt to walk around it, steering by moving the skids in opposite directions. It was to halt every 1.5 meters to undertake soil-mechanics measurements using its two instruments: one a penetrometer supplied by Transmash, and the other a densitometer provided by the Institute of Geochemistry of the Soviet Academy of Sciences. More data was to be gleaned from analysis of the pictures of the traces left in the soil by excrescences of various sizes imprinted on the underside of the vehicle. The Soviets planned to use the data obtained to design the locomotion system for more sophisticated Mars rovers. This approach was the same as that used for lunar missions, in which data collected by the penetrometer and densitometer of the Luna 13 dander in 1966 was exploited in the design of the Lunokhod rovers of the 1970s."

  • In Planetary Rovers Robotic Exploration of the Solar System by Alex Ellery, p 59:

All planetary rover missions to date have adopted wheeled chassis designs across a range of rover sizes for mechanical simplicity and high reliability. This trend looks set to continue for the foreseeable future. One exception was the Prop-M nanorover on the Russian Mars 3 lander (1971). The 4.5 kg Prop-M used a pair of skis mounted onto legs. Regrettably, the mission failed after apparently landing successfully."

  • In Soviet Robots in the Solar System p 256:

"The 4.5 kg PrOP-M rover was a box 250 x 250 x 40 mm with a small protrusion

rising from the center of its upper surface. The body \Vas supported by two skis. one projecting dov,m from each side. By moving the skis in alternating fashion the rover was able to walk', and by moving them in opposite directions it could turn. There vvere obstacle-sensing bars at the front, and it was programmed to reverse in order to circumnavigate an obstacle. The rover was to be deployed by a 6-joint manipulator ann and moved into the field of vie\v of the cameras. It was tethered by a 15 meter long cable for direct communication vvith the lander. and was to pause at intervals of

1.5 meters to make measurements. It carried a dynamic penetrometer and a gammaray densitometer, and its tracks were to be photographed to investigate the physical properties of the surface. "

  • In Planetary Landers and Entry Probes, p 127:

At the simplest end of the spectrum of complexity are relatively ‘dumb’ instrument-deployment devices, whose function is to transport sensors from a

lander across the planetary surface beyond the radius accessible from the lander itself (e.g. by robotic arm). Such devices are usually tethered to the lander to provide power and data connections, which limits mobility but does minimize the need for power and communications equipment and autonomous control on the rover. The first such device flown was the PROP-M tethered walking rover flown on the Mars 2, 3, 6 and 7 landers in 1971 and 1973. All four missions were lost before PROP-M was to operate, however. Deployed by an arm from the lander, PROP-M was to perform penetrometry and densitometry measurements on the Martian surface material. It had the capability to sense (by means of ‘whiskers’

at the front) the presence of an obstacle, step backwards and turn to move around it.

  • In Russian Space Probs:

" The landers carried a small walking robot or skid rover, called PROP-M Pribori Otchenki Prokhodimosti-Mars (literally "instrument for evaluating cross-country movement") with a mass of 4.5 kg and tethered to the craft for communications. The skid rover was a squat box 250 x 200 x 40 mm, with a dynamic penetrometer and radiation densitometer, designed to walk on skids up to 15 m, the limit of the cable. It was programmed to stop to make measurements every 1.5 m. The skid rover had built-in artificial intelligence: when it met an obstacle, it was programmed to reverse and use the skids on alternating sides to walk around the obstacle. "


It's the same info with the same photo in all these books. I could use some of them as sources, that may be preferable to my current ones. The only difference is that some books give different numbers for the dimensions of the rovers.

About the Russian wiki article: location in Ptolemy crater is probably were the lander crashed, but rover wasn't deployed. I can add it, if you think it's needed. I would also add about gamma-rays, but I see no RS for rover's speed of 1 meter per hour. I would also quote Ulivi, his book seems to be the best source of all. Artem.G (talk) 17:40, 15 January 2022 (UTC)Reply

@Artem.G OK, thanks. I suspect everything traces back to some small set of original primary sources and all the rest just keep copying from each other, so that's fine. I had noticed the discrepancy in the dimensions. Since we've got sources that disagree with each other, I'd certainly mention that rather than just blindly endorsing one set of numbers. Something along the line of "Sources differ on the physical size of the rover. Some say it's X1 x Y1 x Z1, others say X2 x Y2 x Z2" works, with a citation to the best source you can find for each set. I'll take a deeper dive into this when I get a chance. -- RoySmith (talk) 18:02, 15 January 2022 (UTC)Reply

Images edit

I'm going to start here because I think there may be a problem meeting WP:NFCC.

File:Mars propm rover.jpg asserts that the image is PD because it was "solely created by NASA". But, all that's given as the source is the deep-link URL for the jpg file, not a link to a page on NASA's web site which explains the provenance of the image. At a minimum, this needs better attribution to confirm the copyright status. Note the licensing template that says, The NASA website hosts a large number of images from the Soviet/Russian space agency, and other non-American space agencies. These are not necessarily in the public domain.. I suspect that applies here.

I'm also worried about File:PrOP-M on the manipulator.jpg. The source is a page on the IEEE web site, but it gives no information about where the image originally came from. That probably fails WP:RS, but more importantly, it can't meet WP:NFCC's Identification of the source of the original copyrighted material requirement. Also, the image is of such poor quality, it's not clear that its presence would significantly increase readers' understanding of the article topic, and its omission would be detrimental to that understanding.

  • working on it.

Lede edit

For an article this short, I would make the lede a single paragraph. I'd leave out the details of why the Mars-2/3 missions failed (crash landed, lost comm) and just say that the missions were failures. Maybe just, "...that were launched on the unsuccessful Mars 2 and Mars 3 missions in 1971"

  • done

Don't mix tenses: "they were small ... that were tethered ... and would have used". Change "would have used" to "used".

  • done

Infobox edit

Why "dry mass"? I think that's usually used for spacecraft to indicate the mass without propellant, but as far as I can tell, this didn't carry any propellent, so just "mass" would make more sense.

  • removed, you are right. The mass is given in the body.

History edit

"who is known for developing" --> "who also developed"

  • done

"Both Mars 2 and Mars 3 landers had a PrOP-M rover" I think would read better as "The Mars 2 and Mars 3 landers each carried a PrOP-M rover".

  • done

"Which would have...", again, the change of tense is jarring. I get that they didn't actually move because they never actually worked, but how about, "designed to move..."

  • done

"cameras' fields of view". Is that intentionally plural? Were there multiple cameras? Were the camera(s) on the lander or on the rover?

  • rephrased. The were several cameras on the lander.

"The rovers' main rover frame" is awkward. Perhaps "The rovers' main chassis"? Also, my note earlier about differing sources.

  • done

"27 November 1971" Be consistent about dates. Here you use DMY. In other places, you use MDY.

  • done

"...before the first successful NASA's rover". Maybe, "...before NASA's first successful rover, Soourner"? But that implies that NASA had an earlier rover, which was not successful. Is that accurate?

  • rephrased. No, Sojourner was first NASA's rover, and it was successful.

Missions edit

Could this list be turned into running prose, per MOS:EMBED?

  • done, removed.

References edit

See WP:LANGCITE, particularly item #3. Applies to your External links as well.

  • done

Thanks for the review, all comments addressed. I will try to resolve photo issues now; if no info would be found, I will upload infobox photo as fair use image and request deletion from commons. Will ping you once done. Artem.G (talk) 11:10, 17 January 2022 (UTC)Reply

Cool, thanks. When you've done that, I'll run over everything one more time to see if I missed anything. -- RoySmith (talk) 14:49, 17 January 2022 (UTC)Reply
PS, not strictly a part of the GA review, but do a comprehensive search for other wiki pages which mention PrOP-M and need incoming links. I found one at List of artificial objects on Mars but there may be others. -- RoySmith (talk) 14:53, 17 January 2022 (UTC)Reply
Also, see WT:GAN#Better way to write this sea of numbers? -- RoySmith (talk) 16:05, 17 January 2022 (UTC)Reply

@RoySmith:, I've tried to find real source of the photo from the infobox, but with no result. I'm not very informed about the copyright laws, but maybe, by any chance, photo from 1971, by unknown author from USSR can be in the public domain now? 50 years had passed, and the photo is used in a bunch of books and articles, and I doubt that they all had contacted Russian Academy of Sciences or anybody else who supposed to be copyright owner. Though I expect that it's not the case and the photo, unfortunately, should be deleted from commons.

And a question about dimensions - I use convert template, 25 cm × 22 cm × 4 cm (9.8 in × 8.7 in × 1.6 in), but as pointed here WT:GAN#Better way to write this sea of numbers?, imperial conversions are not needed. Is there any method to remove converts from convert template? Or should I just write "25 x 22 x 4 cm"? Artem.G (talk) 09:51, 21 January 2022 (UTC)Reply

I'm not an expert on copyright, but I don't believe WP:PD applies here. There may be a valid WP:NONFREE rationale. My suggestion is to ask at WP:IMAGEHELP. The folks who hang out there should be able to give you a definitive answer. I'll be happy to go with whatever comes out of that discussion. If the answer turns out to be "Not usable in commons, but a valid non-free-use argument could be made, then the answer would be to transfer the image to enwiki's private image store. But let's see what the experts say before doing anything.
thanks, will check it!
BTW, a useful way to search for where an image came from is Google's image search. Click the camera icon in the search bar and paste in the URL for the raw image. In this case, https://upload.wikimedia.org/wikipedia/commons/5/5a/Mars_propm_rover.jpg. FWIW, there's a higher quality image here, but it's no better from a licensing point of view. I'm guessing that was taken by a visitor to the museum. Which suggests another possible thing you could do: ask on WP:RP and or [[WT::WikiProject Russia]]. Maybe there's some kind wikipedian who lives in St. Pete who would be willing to take a photo for you.
google images gives a bunch of links to this photo, but as it's probably from 1970s, original source is hard to find. I will check the museum, maybe they had a website, thanks for that idea.
I found this paper. I don't know how reliable it is, but it does mention that the rover drew 5W of power, that the name of one of the instruments was "GEOHI RAS" and that it was produced by the "Russian Lavochkin Association". It also makes mention of the Mars 6 and 7 rovers, which if you're optimistic, could be taken as confirmation of your " Planetary Landers and Entry Probes" citation, but my more pessimistic view is, as mentioned above, all the sources are just copying from each other and I'd be cautious about trusting this particular source.
I'm also pessimistic. All the sources give the same info, so there is no way the athors of that paper can reference this statement. I'm also not very fond of including this into the article, it just seems to be wrong info thogh as there are no official info about these missions it is what it is.
Getting even weirder, check out https://polar-motion.com/2017/12/12/unseen-material-from-spm-part-3/. Apparently there's a video game which includes a CGI version of the rover! Still not a properly licensed image, but maybe a starting point for more searching :-) -- RoySmith (talk) 16:57, 21 January 2022 (UTC)Reply
the images are great! will try to find more about it!
And here's a contemporaneous report of the failed landings (no mention of the rovers). https://www.nytimes.com/1971/12/20/archives/soviet-says-mars-signal-lasted-20-seconds.html -- RoySmith (talk) 17:10, 21 January 2022 (UTC)Reply
Thanks for the tips and your help; if you are ok with that, can the review stay on hold for a time? I need some more time to clarify what to do with the images here. Artem.G (talk) 09:18, 22 January 2022 (UTC)Reply
Sure, no problem with putting it on hold, I'll do that now. -- RoySmith (talk) 17:58, 22 January 2022 (UTC)Reply
@Artem.G this has been stalled for a while. Could you give me an update on where you stand with the images, etc? Thanks. -- RoySmith (talk) 03:36, 6 February 2022 (UTC)Reply
Sorry, got covid and so wasn't active for a while. I will update you tomorrow, ok? Artem.G (talk) 14:08, 7 February 2022 (UTC)Reply
Sure, no problem. Take care of yourself, that's more important than worrying about this stuff. -- RoySmith (talk) 17:04, 7 February 2022 (UTC)Reply
Hi RoySmith, sorry for delay! About that image: its source is this NASA page [3], and though all other images are credited to third party, the photo of rover seems to be by NASA. Several sites also say it's by NASA: [4], [5] (this is German version of MIT Technology Review, so it should be reliable). Artem.G (talk) 17:49, 11 February 2022 (UTC)Reply
My guess is the other websites just grabbed it from NASA and didn't bother to verify the details. So, I emailed the NASA contact for the page and asked. The response I just got back indicates that NASA got the image from Alexander Chernov’s Virtual Space museum (http://vsm.host.ru/), which still owns the rights to the image. So I'm afraid it can't be used. -- RoySmith (talk) 19:30, 11 February 2022 (UTC)Reply
Thanks a lot for that! It somehow just never came to my mind that I can just email NASA about some photo from their website... :) It's great that the question with photo is now resolved, even if the result is a deletion. Maybe you can check all the other points that were highlighted? I think I've addressed the questions about dimensions, sources, and Russian titles. Though I do understand, of course, that the article is not ideal - very few info can be found in any book. Artem.G (talk) 10:10, 14 February 2022 (UTC)Reply
I tweaked one sentence. I also fixed up a couple of citations to the NASA website. When a site gives some sort of internal id number, it's good to include that in the citation; even if you don't know what it means, it could be useful at some point in the future locating the exact item in a search.
Thanks a lot!
Other than that, the only thing I see is that the image still needs to be removed from the article. Maybe move the moving rover animation to the infobox in its place? -- RoySmith (talk) 15:05, 14 February 2022 (UTC)Reply
Done! Image removed, gif moved to the infobox. Artem.G (talk) 18:17, 14 February 2022 (UTC)Reply
OK, I'm calling this a pass. It's a nice article, thanks for writing it, and thanks for sticking with the GA process even when it turned into a bit of a slog. I encourage you to continue to research this and make further improvements to the article if any additional information becomes available. -- RoySmith (talk) 18:51, 14 February 2022 (UTC)Reply

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